Title :
Optimization of Fringing Field Effect Using Dielectric Separation and Local Electric Field Enhancement
Author :
Lei Yang ; Jun Xia ; Xiaobing Zhang
Author_Institution :
Sch. of Electron. Sci. & Eng., Southeast Univ., Nanjing, China
Abstract :
A novel structure using dielectric separation and local electric field enhancement is proposed to reduce the fringing field effect of high-resolution spatial light modulators (SLMs). In our configuration, photoreactive wall structures are used to suppress the crosslink effect of liquid crystal (LC) molecules between adjacent pixels, and slit-step electrodes can enhance the local electric field, which compensate the disclination caused by the split of fringing electric field. The phase modulation of conventional and novel configurations were simulated, and the effect of LC alignment azimuthal angle was analyzed. The results show that the phase modulation characteristics are greatly improved, which indicates the proposed configuration can suppress the annoying interpixel coupling of SLM sufficiently.
Keywords :
electrodes; liquid crystals; optimisation; phase modulation; separation; spatial light modulators; LC alignment azimuthal angle effect; LC molecule; SLM; adjacent pixel; crosslink effect; dielectric separation; disclination compensation; fringing field effect; high-resolution spatial light modulator; interpixel coupling suppression; liquid crystal molecule; local electric field enhancement; optimization; phase modulation characteristics; photoreactive wall structure; slit-step electrode; Azimuthal angle; Crosstalk; Dielectrics; Electric fields; Electrodes; Gray-scale; Phase modulation; Fringing field effect; phase modulation; spatial light modulators (SLMs);
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2014.2379940
